Hello World! The multi-byte quantities are laid out in a LSB FIRST (little endian) fashion Compressed_spectral_matrix_f0 : Number of bins: 1 Number of values per spectral matrix: 25 Size of compressed_spectral_matrix_f0 : 100 Bin number: 0 Element 01 (S11) (00 & --) => Re: 4.00109575e+06 Im: 0.00000000e+00 Element 02 (S12) (01 & 02) => Re: -2.19891187e+03 Im: 1.73193325e+06 Element 03 (S13) (03 & 04) => Re: 1.88106079e+03 Im: -1.00001638e+06 Element 04 (S14) (05 & 06) => Re: 6.23724854e+02 Im: 2.00016860e+07 Element 05 (S15) (07 & 08) => Re: -3.46422920e+07 Im: -1.44333826e+03 Element 06 (S22) (09 & --) => Re: 7.54424812e+05 Im: 0.00000000e+00 Element 07 (S23) (10 & 11) => Re: -4.36785375e+05 Im: 2.34538879e+02 Element 08 (S24) (12 & 13) => Re: 8.65882200e+06 Im: -3.31611108e+03 Element 09 (S25) (14 & 15) => Re: 2.71719702e+03 Im: 1.50027590e+07 Element 10 (S33) (16 & --) => Re: 2.53229094e+05 Im: 0.00000000e+00 Element 11 (S34) (17 & 18) => Re: -4.99895450e+06 Im: 2.90329712e+03 Element 12 (S35) (19 & 20) => Re: -2.17048022e+03 Im: -8.66275100e+06 Element 13 (S44) (21 & --) => Re: 1.00002952e+08 Im: 0.00000000e+00 Element 14 (S45) (22 & 23) => Re: -2.94739111e+03 Im: 1.73206224e+08 Element 15 (S55) (24 & --) => Re: 3.00003392e+08 Im: 0.00000000e+00 F0 data: initialization of the intercalibration k-coefficients F1 data: initialization of the intercalibration k-coefficients F2 data: initialization of the intercalibration k-coefficients BP1 : Number of bins: 1 nbitexp : 6, expmax : 37, expmin : -26 nbitsig : 10, rangesig : 1023 Bin number: 0 PSDB : 5.00874950e+06 significand : 5.97089469e-01 exponent : 23 psd for PSDB significand : 199 exp for PSDB exponent : 49 pt_uint8[1] for PSDB exponent + significand: 196 or c4 pt_uint8[0] for PSDB significand: 199 or c7 lfr_bp1[i*NB_BYTES_BP1+2] : 196 or c4 lfr_bp1[i*NB_BYTES_BP1+3] : 199 or c7 PSDE : 2.26797168e+08 significand : 8.44885290e-01 exponent : 28 psd for PSDE significand : 706 exp for PSDE exponent : 54 pt_uint8[1] for PSDE exponent + significand: 218 or da pt_uint8[0] for PSDE significand: 194 or c2 lfr_bp1[i*NB_BYTES_BP1+0] : 218 or da lfr_bp1[i*NB_BYTES_BP1+1] : 194 or c2 NVEC_V0 : 1.17274933e-04 NVEC_V1 : 5.00031590e-01 NVEC_V2 : 8.66007149e-01 lfr_bp1[i*NB_BYTES_BP1+4] for NVEC_V0 : 128 lfr_bp1[i*NB_BYTES_BP1+5] for NVEC_V1 : 191 lfr_bp1[i*NB_BYTES_BP1+6] for NVEC_V2 : 0 ellipticity : 7.98565149e-01 tmp_uint8 for ellipticity : 12 lfr_bp1[i*NB_BYTES_BP1+6] for NVEC_V2 + ellipticity : 96 DOP : 9.96131897e-01 tmp_uint8 for DOP : 7 lfr_bp1[i*NB_BYTES_BP1+6] for NVEC_V2 + ellipticity + DOP : 103 ReaSX : -4.64141500e+06 |ReaSX| : 4.64141500e+06 significand : 5.53299785e-01 exponent : 23 tmp_uint8 for ReaSX exponent : 49 lfr_bp1[i*NB_BYTES_BP1+7] for ReaSX sign + RealSX exponent : 177 lfr_bp1[i*NB_BYTES_BP1+8] for ReaSX significand : 27 ImaSX : -5.73210880e+07 |ImaSX| : 5.73210880e+07 ArgSX sign : 64 lfr_bp1[i*NB_BYTES_BP1+7] for ReaSX & ArgSX signs + ReaSX exponent : 241 n_cross_e_scal_b_re : 9.66053400e+06 n_cross_e_scal_b_im : -2.58822900e+06 |VPHI| : 1.02704735e+01 significand : 6.41904593e-01 exponent : 4 tmp_uint8 for VPHI exponent : 30 lfr_bp1[i*NB_BYTES_BP1+9] for VPHI sign + VPHI exponent : 30 lfr_bp1[i*NB_BYTES_BP1+10] for VPHI significand : 72 |n_cross_e_scal_b_im| : 2.58822900e+06 |n_cross_e_scal_b_im|/bx_bx_star : 2.75164270e+00 ArgNEBX sign : 0 lfr_bp1[i*NB_BYTES_BP1+9] for VPHI & ArgNEBX signs + VPHI exponent : 30 BP2 : Number of bins: 1 nbitexp : 6, expmax : 37, expmin : -26 nbitsig : 10, rangesig : 1023 Bin number: 0 lfr_bp2[i*NB_BYTES_BP2+10] for cross12_re ( -1.26564049e-03) : 127 lfr_bp2[i*NB_BYTES_BP2+20] for cross12_im ( 9.96858895e-01) : 255 lfr_bp2[i*NB_BYTES_BP2+11] for cross13_re ( 1.86877302e-03) : 128 lfr_bp2[i*NB_BYTES_BP2+21] for cross13_im ( -9.93483901e-01) : 001 lfr_bp2[i*NB_BYTES_BP2+12] for cross14_re ( 3.11815129e-05) : 128 lfr_bp2[i*NB_BYTES_BP2+22] for cross14_im ( 9.99932587e-01) : 255 lfr_bp2[i*NB_BYTES_BP2+13] for cross15_re ( -9.99894261e-01) : 000 lfr_bp2[i*NB_BYTES_BP2+23] for cross15_im ( -4.16596449e-05) : 127 lfr_bp2[i*NB_BYTES_BP2+14] for cross23_re ( -9.99317050e-01) : 000 lfr_bp2[i*NB_BYTES_BP2+24] for cross23_im ( 5.36599255e-04) : 128 lfr_bp2[i*NB_BYTES_BP2+15] for cross24_re ( 9.96883571e-01) : 255 lfr_bp2[i*NB_BYTES_BP2+25] for cross24_im ( -3.81781341e-04) : 127 lfr_bp2[i*NB_BYTES_BP2+16] for cross25_re ( 1.80613439e-04) : 128 lfr_bp2[i*NB_BYTES_BP2+26] for cross25_im ( 9.97240901e-01) : 255 lfr_bp2[i*NB_BYTES_BP2+17] for cross34_re ( -9.93381321e-01) : 001 lfr_bp2[i*NB_BYTES_BP2+27] for cross34_im ( 5.76936873e-04) : 128 lfr_bp2[i*NB_BYTES_BP2+18] for cross35_re ( -2.49020959e-04) : 127 lfr_bp2[i*NB_BYTES_BP2+28] for cross35_im ( -9.93884504e-01) : 001 lfr_bp2[i*NB_BYTES_BP2+19] for cross45_re ( -1.70164221e-05) : 127 lfr_bp2[i*NB_BYTES_BP2+29] for cross45_im ( 9.99986172e-01) : 255 S11 : 4.00109575e+06 significand : 9.53935564e-01 exponent : 22 autocor for S11 significand : 929 exp for S11 exponent : 48 pt_uint8[1] for S11 exponent + significand : 195 or c3 pt_uint8[0] for S11 significand : 161 or a1 lfr_bp2[i*NB_BYTES_BP2+0] : 195 or c3 lfr_bp2[i*NB_BYTES_BP2+1] : 161 or a1 S22 : 7.54424812e+05 significand : 7.19475567e-01 exponent : 20 autocor for S22 significand : 449 exp for S11 exponent : 46 pt_uint8[1] for S22 exponent + significand : 185 or b9 pt_uint8[0] for S22 significand : 193 or c1 lfr_bp2[i*NB_BYTES_BP2+2] : 185 or b9 lfr_bp2[i*NB_BYTES_BP2+3] : 193 or c1 S33 : 2.53229094e+05 significand : 9.65992332e-01 exponent : 18 autocor for S33 significand : 953 exp for S33 exponent : 44 pt_uint8[1] for S33 exponent + significand : 179 or b3 pt_uint8[0] for S33 significand : 185 or b9 lfr_bp2[i*NB_BYTES_BP2+4] : 179 or b3 lfr_bp2[i*NB_BYTES_BP2+5] : 185 or b9 S44 : 1.00002952e+08 significand : 7.45080054e-01 exponent : 27 autocor for S44 significand : 501 exp for S44 exponent : 53 pt_uint8[1] for S44 exponent + significand : 213 or d5 pt_uint8[0] for S44 significand : 245 or f5 lfr_bp2[i*NB_BYTES_BP2+6] : 213 or d5 lfr_bp2[i*NB_BYTES_BP2+7] : 245 or f5 S55 : 3.00003392e+08 significand : 5.58799863e-01 exponent : 29 autocor for S55 significand : 120 exp for S55 exponent : 55 pt_uint8[1] for S55 exponent + significand : 220 or dc pt_uint8[0] for S55 significand : 120 or 78 lfr_bp2[i*NB_BYTES_BP2+8] : 220 or dc lfr_bp2[i*NB_BYTES_BP2+9] : 120 or 78 Press to close this window...